In Situ Synthesis of Polyaniline Nanohybrid and Formulation of Polyaniline/ Carboxymethyl cellulose/Ethylene Glycol Nanocomposite: Study of its Conducting and Antibacterial Properties

Journal of Materials and Polymer Science Pub Date : 2023-11-20 DOI:10.47485/2832-9384.1041

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Abstract

Polyaniline (PANI) has received great attention as a conducting polymer from researchers in the field of organic synthesis and development of conducting nanocomposite polymer technology for superconductors. Different methods of PANI synthesis are being sought for the obtainment of electrically robust PANI composites for electronic and other useful applications. Different inorganic matrices have been considered for this purpose. This study attempts to prepare PANI In situ on arginine-modified nanoclay template by chemical oxidation polymerization. Further, the PANI/Arginine-modified nanoclay was used to prepare PANI/Arginine-Nanoclay/Carboxymethyl cellulose/Ethylene glycol conducting film with robust electric conductivity (EC). Electrical conductivities, anti-bacterial evaluation, Fourier-transform infrared spectroscopy (FT-IR), thermogravimetry analysis (TGA), differential thermogravimetry analysis (DTG) and Scanning Electron Microscopy (SEM) were used for the characterization studies and property evaluation. The electrical conductivities of PANI/Arginine-Nanoclay/Carboxymethyl cellulose/Ethylene glycol nanocomposite film reached 1900 S/Cm. FT-IR data, 3304–3196, 2926–2828, 2200–2022, 1733, 1620 and 1052 cm-1 respectively, confirmed the presence of organic intercalates, CMC, quinoid and benzenoid rings of PANI, and the inorganic nanoclay matter in the nanocomposite film. SEM revealed the presence of spine-like nanoflowers with elongated and expanded particle agglomerations. Thermal stability of the prepared nanocomposite thin film reached 700oC. The zone of inhibition ranged from 24-36 mm against S. typhi, E. coli and S. aureus. In conclusion, PANI nanocomposite thin conducting films had robust EC and antibacterial properties. In addition, the In-situ synthesis of PANI on Arginine-modified nanoclay platform aided the electric conductivity of the nanocomposite system.

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聚苯胺纳米杂化物的原位合成及聚苯胺/羧甲基纤维素/乙二醇纳米复合材料的制备：导电性和抗菌性研究

聚苯胺（PANI）作为一种导电聚合物受到了有机合成和超导体导电纳米复合聚合物技术开发领域研究人员的极大关注。人们正在寻求不同的 PANI 合成方法，以获得用于电子和其他有用应用的导电性强的 PANI 复合材料。为此考虑了不同的无机基质。本研究尝试通过化学氧化聚合法在精氨酸修饰的纳米粘土模板上原位制备 PANI。此外，还利用 PANI/精氨酸改性纳米粘土制备了具有强导电性（EC）的 PANI/精氨酸-纳米粘土/羧甲基纤维素/乙二醇导电膜。电导率、抗菌评估、傅立叶变换红外光谱（FT-IR）、热重分析（TGA）、差热分析（DTG）和扫描电子显微镜（SEM）被用于表征研究和性能评估。PANI/Arginine-Nanoclay/Carboxymethyl cellulose/Ethylene glycol 纳米复合薄膜的电导率达到 1900 S/Cm。傅立叶变换红外光谱（FT-IR）数据分别为 3304-3196、2926-2828、2200-2022、1733、1620 和 1052 cm-1，证实了纳米复合膜中存在有机插层物、CMC、PANI 的醌环和苯环以及无机纳米土。扫描电子显微镜（SEM）显示，纳米花具有拉长和膨胀的颗粒团聚。制备的纳米复合薄膜的热稳定性达到了 700 摄氏度。对伤寒杆菌、大肠杆菌和金黄色葡萄球菌的抑制区为 24-36 mm。总之，PANI 纳米复合导电薄膜具有强大的导电率和抗菌性能。此外，在精氨酸修饰的纳米粘土平台上原位合成 PANI 有助于提高纳米复合系统的导电性。

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Journal of Materials and Polymer Science

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